Relationship between enantioselectivity and solute structure on a chiral α1-acid glycoprotein column

Abstract

The relationship between the enantioselectivity, the retention and the solute structure for N-aminoalkylsuccinimides and 1-alkyl-2′,6′-pipecoloxylidides have been studied using α1-acid glycoprotein as the chiral stationary phase. Both the enantioselectivity and the retention are highly affected by small changes of the solute structure in series of homologous compounds. For example, increasing the steric bulk on a basic aliphatic nitrogen improves the enantioselectivity. It was also demonstrated for the succinimides that the magnitude of the separation factor was highly affected by the distance between the basic nitrogen and the chiral center. The chiral selectivity was not lost for the succinimides despite the fact that the basic nitrogen was separated from the chiral center with seven atoms, which may be an effect of that these compounds contain more than one strong hydrogen bonding group. Substitution in the aromatic ring of the succinimides also influences both the retention and the chiral selectivity to a large extent. Electronegative substituents can increase the separation factor but introduction of an alkyl or an alkoxy group in the aromatic ring decreases the enantioselectivity for the succinimides.